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Volume 8 Issue 1
Mar.  2020
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SAMI Guellouh, ABDELWAHHAB Filali, Med ISSAM Kalla. 2020: Estimation of the peak flows in the catchment area of Batna (Algeria). Journal of Groundwater Science and Engineering, 8(1): 79-86. doi: 10.19637/j.cnki.2305-7068.2020.01.008
Citation: SAMI Guellouh, ABDELWAHHAB Filali, Med ISSAM Kalla. 2020: Estimation of the peak flows in the catchment area of Batna (Algeria). Journal of Groundwater Science and Engineering, 8(1): 79-86. doi: 10.19637/j.cnki.2305-7068.2020.01.008

Estimation of the peak flows in the catchment area of Batna (Algeria)

doi: 10.19637/j.cnki.2305-7068.2020.01.008

SAMI Guellouh

  • Publish Date: 2020-03-28
  • The limited knowledge of the variations, both spatial and temporal, of the flow patterns at the watershed level invariably leads to poor space management, generating great and often irreversible damage. Therefore, measuring peak flows appears to be not only important but even essential. Due to the absence of hydrometric stations at the outlet of the sub-basins that are part of comprehensive prevention strategy, and were established because of the high vulnerability of the city of Batna, this study provides a transformation model of rainfall into flows in the Batna watershed. This work aims to model the transformation of rainfall into flows. To estimate the Q max, two formulas were used, and Turazza’s seems to be the most adequate, because it demonstrates a cumulative sub-basins flow close to the result recorded by the only hydrometric station at the outlet of Batna Watershed. From this modeling, it is possible to estimate the extreme quantiles with the return periods of 10, 20, 50 and 100 years for each sub-basin. Its purpose is to help design of hydraulic works and increase the resilience of development projects that might be exposed to floods.
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  • Watts S B, Tolland L. 2005. Forestry handbook for British Columbia, 5th Ed, USU, University of British Columbia, Vancouver, BC: 773.
    Beckers E, Degre A. 2011. Bibliographic review: The consideration of horizontal transfers in hydrological models. E Biotechnol Agron Soc Environ, 15(1): 143-151.
    Benkhaled A. 2007. Statistical distributions of annual maximum rainfall in the Cheliff region, comparison of techniques and results. Courrier du Savoir, 08: 83-91.
    Guellouh S, Dridi H, Kalla M. 2016. Estimation and mapping of extreme rainfall in the catchment area of Batna (Algeria). Analele Universitatii din Oradea: Seria Geografie. 26(1): 107-117.
    Garambois P A. 2012. Regional study of flash floods in the French Mediterranean Arc. Development of transfer methodologies to non-calibrated watersheds. Phd Thesis Toulouse University: 47.
    Lahsaini M. Hassan T. 2018. Modelisation hydraulique mono dimensionnel par HEC RAS, application Sur L’oued Aggay (Ville De Sefrou). European Scientific Journal, 14(18): 110-121.
    Beloulou L. 2008. Vulnerability to urban flooding. Case of the city of Annaba Northeast, Algeria. Phd thesis. Annaba University: 80.
    Khaddor I, Achab M, Hafidi A. 2016. Hydrological simulation (Rainfall-Runoff) of Kalaya watershed (Tangier Morocco) using Geo-spatial tools. Journal of Water Science & Envirionment Technologies, (01): 10-14.
    Layan B. Dridri A. Benaabidate L. Zemzami M. 2012. Determination of project floods by aspects of peak flow and flood hydrograph at Ain Boukellal commune, Oued Larbaa watershed, Morocco. European Scientific Journal, 8(29): 209-220.
    Agence Nationale des Ressources Hydriques (ANRH). 2012. Hydrometric data (Fesdis station). National Water Resources Agency.
    Fouchier C. 2010. Development of a methodology for regional knowledge of floods. Phd thesis. Montpellier II University: 27.
    Pratt C J, Harrison J J, Adams J R W. 1984. Storm runoff simulation in runoff quality investigations. Proceedings of the 3rd International Conference on Urban Storm drainage. G?teborg, Sweden, 1: 285-294.
    Arnaud P, Lavabre J. 2000. Stochastic modelling of hourly rains and their transformations into flows for flood predetermination. Water Science Review, 13(4): 441-462.
    Wilcoxon F. 1945. Individual comparisons by ranking methods, Biometrics, 1: 80-83.
    Ismail M Hasmadi, Pakhriazad H Z, Shahrin M F. 2009. Evaluating supervised and unsupervised techniques for land cover mapping using remote sensing data. Malaysian Journal of Society and Space, 5(1): 1-10.
    Aurore D, Sylvia D, Cathrine S, et al. 2008. Istatistics of extremes in low-gauge basins: application of a global rain-flow model to five watersheds in the Walloon region (Belgium) journal Base Biotechnologie, Agronomie. Société et Environnement, 12(4): 1780-4507.
    Sogreah P. 1996. Flood risk prevention plan. Risk basin of the Cesse. Toulouse Agency: 55.
    Tahiri M, Tabyaoui H, E L Hammichi F, et al. 2017. Quantification of water erosion and sedimentation from empirical models in the Tahaddart watershed (Western North Rif, Morocco). Bulletin of the Scientific Institute, Rabat, Section Earth Sciences, 39: 87-101.
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